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who can figure this out for me---I am begging

Discussion in 'Gen 2 Prius Main Forum' started by ivorz, Apr 17, 2010.

  1. mainlin

    mainlin Junior Member

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    Narrow tires and electric steering = not a fun interstate driving experience. It is the nature of the beast, and not much can be done about it. It is part of the price we pay to achieve the best MPG on the road. I drove my son's '10 III (steering by 'JELLO'), and decided to pass on the Prius, but a test drive in a '10 V made me buy-in. Bigger wheels, wider tires, a stiffer suspension, and there is an improved difference in the electric stepper motor steering the front wheels. I have a Honda Fit Sport w/ electric steering and smallish tires with the same problem, but my last car, a Mitshi Outlander, drove as if it was an railroad tracks.
     
  2. talonts

    talonts VFAQman

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    You are toed out on the front, which WILL make the car hunt.

    First thing - get them to center the wheel, THEN have them set toe. Someone was lazy, and set yours without centering the wheel (it doesn't help that the Prius can't lock the steering wheel).

    Then have them set it for ZERO toe, both sides. Or a very slight toe in. Tell them to ignore factory settings and go for dead ZERO on BOTH sides, or a slight toe in. Otherwise the car will wander. And try to find an alignment shop that is willing to shim the rear to get it dead center in the specs.

    You said you've played with the tire pressures, but you didn't say what you have tried. Go all the way to the sidewall max on the front, 2-3psi lower on the rear, and see how it rides. If too stiff, lower it 2psi at a time, keeping the rear 2-3psi lower. If necessary, swap rims/tires with another Prius owner for a day for testing. The BT plate and HydroEdges made both my 04 and 06 WAY more stable on I10/75/4. I tend to drive one handed, with a light grip now, no issues.

    One more note - some shops will set the alignment to account for road crown. Some tend to set it for the left lane, and if you normally drive in the right lane, your wheel will be off when traveling straight in the right lane, and centered or close to it in the left. If you normally stick to the right lane, make sure to tell them that if they compensate for crown, that you are a right laner. If they don't set for crown, your wheel will be off in opposite directions in either lane (not much, but still noticeable).

    One more thing that will help with stability, but may not work for you if you have lots of speed bumps to deal with - lower the car a bit. I put 20mm lowering springs on my 06 and it stabilized the car even further, as there is less area for the wind to get under the car. An added rubber airdam back near the front tire splitters would help more, but I haven't felt the need for it yet.
     
  3. 2009Prius

    2009Prius A Wimpy DIYer

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    Interesting. So you think the tiny 0.02 degree toe out on the front (well within the 0.1 spec by the way) is the cause of the problem? Maybe Toyota spec to maximize fuel economy (zero toe) while sacrificing the feel of stability (would need some finite toe in)?
     
  4. Patrick Wong

    Patrick Wong DIY Enthusiast

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    A positive number usually means that the toe is "in", not "out". I think that the OP's front wheel alignment is OK, other than the steering wheel being off-center.
     
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  5. edthefox5

    edthefox5 Senior Member

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    Oh that sucks. I have not driven any other model Prius and was hoping really it was mostly an Integrity tire issue as it can be mitigated somewhat by increasing the tire pressure.
    WE must be alike in that we are sensitive to steering input. Maybe like me you own another car that can almost drive itself so we have that constant difference so notice it.
    If my 07 was my only car I probably would not notice it.
    I have not really taken a very long road trip with the Prius. That would be annoying.
    Its not to annoying anymore as I'm used to it but like Tom says there is no deadband. None. Your constantly engaged with the steering. Although I did notice at 45-43 it was almost gone. Much better but the tires really rumbled.

    And I have no alignment issue....I THINK. I watch all the tires carefully for edge wear. There all perfect. But I know I still may have alignment issues. I am planning to get a full alignment when I get new tires. But I can't be too bad as the car rolls really good. My average is still 46-47 mpg's mixed. And at 27K still have alot of life left damnit.

    This car is so weird. You really don't need to rotate the Integity's till every 13,000 miles.
    I'm getting ready to rotate my tires for the second time and I will check toe myself then. I have a really nice piece of straight bar metal. Works good.
     
  6. donee

    donee New Member

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    Hi All,

    Toe in is usually set to toe the tires inward. The reason for this is that under load, the tires will use up the bearing play and toe outward. If the tires are not toed in, you now have tires shifting back and forth through the bearing play at highway speeds. The Prius is one of the few cars with a Toe In specification that has a range through toe-in to toe-out dynamically. You need enough toe-in so that during varying loads, the tire does not transfer to toe-out.

    Why is the Prius specified like this? At low speeds, tires closer to toe-center roll with less resistance.

    Now, even with good alignment, the Prius still needs something like the BT Tech brace for strong cross winds.

    My car was fine in low wind conditions. I could take my hand off the wheel and it tracked straight and was great. 85 mph 18 wheeler rigs would go buy when I was at 70 mph, no problem.

    But get strong spring side gust, and whoa-nellie! The back end of the car comes alive and tries to push you into the next lane.
     
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  7. ivorz

    ivorz Junior Member

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    well, short of spending thousands of $$ on upgrading the springs/suspension etc. I guess I am just going to have to deal with it. I have done everything recommended here on pc--tire pressures, BT plate, 7 alignments by toyota, and upgraded the tires to 195's.

    Although it is better than with the larger tires, this car just has wierd issues. To the point that I seriously doubt puchasing another one. I drive 80 miles a day on the turnpike and it is a pain in the $%s to keep so focused on which way the car is going to dart next.

    The only other thing I might try is change out the tires again for better ones, so If anyone here has opinions on which ones to get for driving here in S. Florida, please let me know. Also if anyone can recommend a good alignment shop down here, I would appreciate it.
     
  8. 2Txns

    2Txns New Member

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    How come nobody has questioned the steering system? Has Toyota checked it out for being too sensitive? maybe they can make an adjustment on the steering pump to help with your too touchy steering. I drove an Oldsmobile 88 and a old Ford Mustang that both had very sensitive steering issues, compared to my Toyota Corolla and Suzuki Samurai. Just a thought...
     
  9. donee

    donee New Member

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    Hi 2Txns,

    I am not so sure the steering is too sensative (angle of wheel turn, to steering of car ratio). But, the wheel does have very low friction. So, when the rear of the car gets going in a side-gust, its easy to get out of sync with the car and make matters worse. This is why the BT Tech plate helps so much.

    Ivorz,

    Talonts has indicated that your toe in is still wrong. Please go find somebody who will get that fixed. Its probably not going to be that same dealer. They fix cars to specification, not what is needed. As that sometimes conflicts with reality. For example Ford Explorer tire pressures not being appropriate for desert highway driving coditions.

    You should get the toe set for .05 inward on both front tires at least. A toe of 0.0 on one of the tires is definately going to cause a hunting problem on the highway, per the mechanism I indicated above.
     
  10. V8Cobrakid

    V8Cobrakid Green Handyman

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    these are the same problems i've experienced in the past with my 04. when i switched out to 17's, that problem went away.

    there wasn't enough padding with the 215/45/17's so i switched to 215/50/17's...
     
  11. edthefox5

    edthefox5 Senior Member

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    Thanks V8. Good to know there's light at the end of the tunnel.
    I would gladly take a mpg hit to stop the hunting. With the 215 width do you ever scrape the fenderwell?

    Can I fit 215's on my 07 pack #2 non touring?
     
  12. Son of Gloin

    Son of Gloin Active Member

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    Much like bisco ... I've never noticed / found many-if-any complaints of this sort, but will gladly take ivorz' word for it at this point.

    As for my word -- whatever it may be worth -- I've never been at all dissatisfied with the steering / handling of our '08 Prius. The only times I've had "issues" were on highways or interstates during VERY windy days ... winds at-or-above 25 mph that I was traveling against rather than going with. But what vehicle is there that is NOT adversely affected under such conditions?

    No ... it seems to me the OP's car MUST have "something" wrong with it; something, in all likelihood, that has already been suggested. Good luck in figuring out what it is and having it taken care of!
     
  13. ETP

    ETP 2021 Prime(Limit),Highlander HYB Plat,B52-D,G,F,H

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    [SIZE=+4]Pointed the Right Way[/SIZE]
    story by john hagerman
    [SIZE=+2]Camber, Caster and Toe: What Do They Mean?[/SIZE]
    The three major alignment parameters on a car are toe, camber, and caster. Most enthusiasts have a good understanding of what these settings are and what they involve, but many may not know why a particular setting is called for, or how it affects performance. Let's take a quick look at this basic aspect of suspension tuning.
    UNDERSTANDING TOE
    When a pair of wheels is set so that their leading edges are pointed slightly towards each other, the wheel pair is said to have toe-in. If the leading edges point away from each other, the pair is said to have toe-out. The amount of toe can be expressed in degrees as the angle to which the wheels are out of parallel, or more commonly, as the difference between the track widths as measured at the leading and trailing edges of the tires or wheels. Toe settings affect three major areas of performance: tire wear, straight-line stability and corner entry handling characteristics.
    For minimum tire wear and power loss, the wheels on a given axle of a car should point directly ahead when the car is running in a straight line. Excessive toe-in or toe-out causes the tires to scrub, since they are always turned relative to the direction of travel. Too much toe-in causes accelerated wear at the outboard edges of the tires, while too much toe-out causes wear at the inboard edges.

    [​IMG]
    So if minimum tire wear and power loss are achieved with zero toe, why have any toe angles at all? The answer is that toe settings have a major impact on directional stability. The illustrations at right show the mechanisms involved. With the steering wheel centered, toe-in causes the wheels to tend to roll along paths that intersect each other. Under this condition, the wheels are at odds with each other, and no turn results.
    When the wheel on one side of the car encounters a disturbance, that wheel is pulled rearward about its steering axis. This action also pulls the other wheel in the same steering direction. If it's a minor disturbance, the disturbed wheel will steer only a small amount, perhaps so that it's rolling straight ahead instead of toed-in slightly. But note that with this slight steering input, the rolling paths of the wheels still don't describe a turn. The wheels have absorbed the irregularity without significantly changing the direction of the vehicle. In this way, toe-in enhances straight-line stability.
    If the car is set up with toe-out, however, the front wheels are aligned so that slight disturbances cause the wheel pair to assume rolling directions that do describe a turn. Any minute steering angle beyond the perfectly centered position will cause the inner wheel to steer in a tighter turn radius than the outer wheel. Thus, the car will always be trying to enter a turn, rather than maintaining a straight line of travel. So it's clear that toe-out encourages the initiation of a turn, while toe-in discourages it.

    [​IMG]
    [SIZE=+1]With toe-in (left) a deflection of the suspension does not cause the wheels to initiate a turn as with toe-out (right).[/SIZE]

    The toe setting on a particular car becomes a tradeoff between the straight-line stability afforded by toe-in and the quick steering response promoted by toe-out. Nobody wants their street car to constantly wander over tar strips-the never-ending steering corrections required would drive anyone batty. But racers are willing to sacrifice a bit of stability on the straightaway for a sharper turn-in to the corners. So street cars are generally set up with toe-in, while race cars are often set up with toe-out.
    With four-wheel independent suspension, the toe must also be set at the rear of the car. Toe settings at the rear have essentially the same effect on wear, directional stability and turn-in as they do on the front. However, it is rare to set up a rear-drive race car toed out in the rear, since doing so causes excessive oversteer, particularly when power is applied. Front-wheel-drive race cars, on the other hand, are often set up with a bit of toe-out, as this induces a bit of oversteer to counteract the greater tendency of front-wheel-drive cars to understeer.
    Remember also that toe will change slightly from a static situation to a dynamic one. This is is most noticeable on a front-wheel-drive car or independently-suspended rear-drive car. When driving torque is applied to the wheels, they pull themselves forward and try to create toe-in. This is another reason why many front-drivers are set up with toe-out in the front. Likewise, when pushed down the road, a non-driven wheel will tend to toe itself out. This is most noticeable in rear-drive cars.
    The amount of toe-in or toe-out dialed into a given car is dependent on the compliance of the suspension and the desired handling characteristics. To improve ride quality, street cars are equipped with relatively soft rubber bushings at their suspension links, and thus the links move a fair amount when they are loaded. Race cars, in contrast, are fitted with steel spherical bearings or very hard urethane, metal or plastic bushings to provide optimum rigidity and control of suspension links. Thus, a street car requires a greater static toe-in than does a race car, so as to avoid the condition wherein bushing compliance allows the wheels to assume a toe-out condition.
    It should be noted that in recent years, designers have been using bushing compliance in street cars to their advantage. To maximize transient response, it is desirable to use a little toe-in at the rear to hasten the generation of slip angles and thus cornering forces in the rear tires. By allowing a bit of compliance in the front lateral links of an A-arm type suspension, the rear axle will toe-in when the car enters a hard corner; on a straightaway where no cornering loads are present, the bushings remain undistorted and allow the toe to be set to an angle that enhances tire wear and stability characteristics. Such a design is a type of passive four-wheel steering system.

    THE EFFECTS OF CASTER
    Caster is the angle to which the steering pivot axis is tilted forward or rearward from vertical, as viewed from the side. If the pivot axis is tilted backward (that is, the top pivot is positioned farther rearward than the bottom pivot), then the caster is positive; if it's tilted forward, then the caster is negative.
    Positive caster tends to straighten the wheel when the vehicle is traveling forward, and thus is used to enhance straight-line stability. The mechanism that causes this tendency is clearly illustrated by the castering front wheels of a shopping cart (above). The steering axis of a shopping cart wheel is set forward of where the wheel contacts the ground. As the cart is pushed forward, the steering axis pulls the wheel along, and since the wheel drags along the ground, it falls directly in line behind the steering axis. The force that causes the wheel to follow the steering axis is proportional to the distance between the steering axis and the wheel-to-ground contact patch-the greater the distance, the greater the force. This distance is referred to as "trail."
    Due to many design considerations, it is desirable to have the steering axis of a car's wheel right at the wheel hub. If the steering axis were to be set vertical with this layout, the axis would be coincident with the tire contact patch. The trail would be zero, and no castering would be generated. The wheel would be essentially free to spin about the patch (actually, the tire itself generates a bit of a castering effect due to a phenomenon known as "pneumatic trail," but this effect is much smaller than that created by mechanical castering, so we'll ignore it here). Fortunately, it is possible to create castering by tilting the steering axis in the positive direction. With such an arrangement, the steering axis intersects the ground at a point in front of the tire contact patch, and thus the same effect as seen in the shopping cart casters is achieved.
    The tilted steering axis has another important effect on suspension geometry. Since the wheel rotates about a tilted axis, the wheel gains camber as it is turned. This effect is best visualized by imagining the unrealistically extreme case where the steering axis would be horizontal-as the steering wheel is turned, the road wheel would simply change camber rather than direction. This effect causes the outside wheel in a turn to gain negative camber, while the inside wheel gains positive camber. These camber changes are generally favorable for cornering, although it is possible to overdo it.
    Most cars are not particularly sensitive to caster settings. Nevertheless, it is important to ensure that the caster is the same on both sides of the car to avoid the tendency to pull to one side. While greater caster angles serve to improve straight-line stability, they also cause an increase in steering effort. Three to five degrees of positive caster is the typical range of settings, with lower angles being used on heavier vehicles to keep the steering effort reasonable.

    [​IMG]
    [SIZE=+1]Like a shopping cart wheel (left) the trail created by the castering of the steering axis pulls the wheels in line.[/SIZE]

    WHAT IS CAMBER?
    Camber is the angle of the wheel relative to vertical, as viewed from the front or the rear of the car. If the wheel leans in towards the chassis, it has negative camber; if it leans away from the car, it has positive camber (see next page). The cornering force that a tire can develop is highly dependent on its angle relative to the road surface, and so wheel camber has a major effect on the road holding of a car. It's interesting to note that a tire develops its maximum cornering force at a small negative camber angle, typically around neg. 1/2 degree. This fact is due to the contribution of camber thrust, which is an additional lateral force generated by elastic deformation as the tread rubber pulls through the tire/road interface (the contact patch).
    To optimize a tire's performance in a corner, it's the job of the suspension designer to assume that the tire is always operating at a slightly negative camber angle. This can be a very difficult task, since, as the chassis rolls in a corner, the suspension must deflect vertically some distance. Since the wheel is connected to the chassis by several links which must rotate to allow for the wheel deflection, the wheel can be subject to large camber changes as the suspension moves up and down. For this reason, the more the wheel must deflect from its static position, the more difficult it is to maintain an ideal camber angle. Thus, the relatively large wheel travel and soft roll stiffness needed to provide a smooth ride in passenger cars presents a difficult design challenge, while the small wheel travel and high roll stiffness inherent in racing cars reduces the engineer's headaches.
    It's important to draw the distinction between camber relative to the road, and camber relative to the chassis. To maintain the ideal camber relative to the road, the suspension must be designed so that wheel camber relative to the chassis becomes increasingly negative as the suspension deflects upward. The illustration on the bottom of page 46 shows why this is so. If the suspension were designed so as to maintain no camber change relative to the chassis, then body roll would induce positive camber of the wheel relative to the road. Thus, to negate the effect of body roll, the suspension must be designed so that it pulls in the top of the wheel (i.e., gains negative camber) as it is deflected upwards.
    While maintaining the ideal camber angle throughout the suspension travel assures that the tire is operating at peak efficiency, designers often configure the front suspensions of passenger cars so that the wheels gain positive camber as they are deflected upward. The purpose of such a design is to reduce the cornering power of the front end relative to the rear end, so that the car will understeer in steadily greater amounts up to the limit of adhesion. Understeer is inherently a much safer and more stable condition than oversteer, and thus is preferable for cars intended for the public.
    Since most independent suspensions are designed so that the camber varies as the wheel moves up and down relative to the chassis, the camber angle that we set when we align the car is not typically what is seen when the car is in a corner. Nevertheless, it's really the only reference we have to make camber adjustments. For competition, it's necessary to set the camber under the static condition, test the car, then alter the static setting in the direction that is indicated by the test results.
    The best way to determine the proper camber for competition is to measure the temperature profile across the tire tread immediately after completing some hot laps. In general, it's desirable to have the inboard edge of the tire slightly hotter than the outboard edge. However, it's far more important to ensure that the tire is up to its proper operating temperature than it is to have an "ideal" temperature profile. Thus, it may be advantageous to run extra negative camber to work the tires up to temperature.

    [​IMG]
    [SIZE=+1](TOP RIGHT) Positive camber: The bottoms of the wheels are closer together than the tops. (TOP LEFT) Negative camber: The tops of the wheels are closer together than the bottoms. (CENTER) When a suspension does not gain camber during deflection, this causes a severe positive camber condition when the car leans during cornering. This can cause funky handling. (BOTTOM) Fight the funk: A suspension that gains camber during deflection will compensate for body roll. Tuning dynamic camber angles is one of the black arts of suspension tuning.[/SIZE]

    TESTING IS IMPORTANT
    Car manufacturers will always have recommended toe, caster, and camber settings. They arrived at these numbers through exhaustive testing. Yet the goals of the manufacturer were probably different from yours, the competitor. And what works best at one race track may be off the mark at another. So the "proper" alignment settings are best determined by you-it all boils down to testing and experimentation.

    John Hagerman is a mechanical engineer who works for the U.S. Army as a vehicle test engineer at the Aberdeen Proving Grounds in Maryland. John started autocrossing at the age of 16 in a Triumph Spitfire and switched to road racing a few years later. Lately, he has been playing with a Sports 2000.
    [FONT=verdana, arial, helvetica] [/FONT]
    [FONT=verdana, arial, helvetica]
    Smithees Race Car Technologies [email protected]
    [/FONT]
     
  14. ivorz

    ivorz Junior Member

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    well, I had the alignment done by an alignment shop. This is what they came up with. I requested the front toe in to be 0.05 but the best they could do was 0.07. Althogh it seems better, the steering wheel is still off center (to the left) by a few degrees. They said it is due to the right back wheel being out of spec (see attachment). Is this correct.

    Can someone tell me if I should bother fixing this. I did take a toyota extended warranty when I bought the car. Not sure if it covers this.
     

    Attached Files:

  15. ivorz

    ivorz Junior Member

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    anyone....Is this a problem or not. If so, how do I correct it.
     

    Attached Files:

  16. SageBrush

    SageBrush Senior Member

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    I am under the impression that steering alignment is separate from wheel.
     
  17. ivorz

    ivorz Junior Member

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    given the above alignment sheet, would this cause the car to flutter around at freeway speeds (75mph). It almost feels unstable, although a lot better now that the front toe is set to 0.07
     
  18. Walt999

    Walt999 New Member

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    I have been fighting the same problem since owning the 2007 which I bought used. The dealer suggested front wheel alignment (which of course I had to pay for). He just tweaked the toe in a little to set it at 0 degrees but it did not help one bit.
    Since I live in a small town and have little confidence in the dealer, I went to a large dealer in Tucson, Az. They drove it around the block and said that there was nothing wrong with it.
    I complained to the Toyota corporation and got a case number. It took almost 3 months to get an appointment with the corporate traveling sevice man and advisor (supposedly an expert). Well, he drove it on the highway for 33 miles and said "It feels normal to me". Also said since it did not throw any codes " There is nothing wrong with it".
    How's that for a technical answer to a service problem? I questioned him about a few things and came to the conclusion that he really knew little about the Prius automobile.
    I have since done my own front alignment to set the toe-in at .075 degrees each side and centered the steering wheel straight ahead. This has improved the situation but I still classify the Prius steering characteristics as sub standard compared to typical modern day vehicle peformance.
    As for the rear alignment, the dealer print out showed quite a difference between right and left but this could be due to careless placement of the car on the alignment machine platform. Because the rear suspension is of trailing type with soft bushings, the rear toe-in and the camber measurements are not accurate unless the car is very carefully driven straight onto the machine. The slightest turn when putting the car onto the machine will result in inaccurate rear suspension readings.
    I haven't tackled the rear alignment yet but will do so when I get a chance.
    Another item to consider is that the Prius has a wider rear tread than the front. This will definately cause the car to "hunt" on a piece of pavement that has been grooved by other traffic. The car really doesn't know which rear wheel to put into the groove and so it wanders back and forth.
    I am really disappointed in that the dealer service departments are so poorly educated in the service aspects of the Prius. They are bad enough when working on regular cars but when it comes to the Prius, other than putting air in the tires, I feel that they are scared to death of the car and understand very little of what makes it tick.
    Other than that, the car is wonderful.
    Just my opinion,
    Walt
     
  19. bisco

    bisco cookie crumbler

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    i don't think i have ever driven on a "piece of pavement grooved by other traffic" can you explain please?
     
  20. ivorz

    ivorz Junior Member

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    I just went back to check the printouts for the rear toe settings for previous 2 alignments that I had done by toyota.

    left right
    0.23 0.1 --- first toyota alignment
    0.17 0.22 --- second toyota alignment

    Compare this to the print out from an independant alignment shop:
    left right
    0.17 0.28 -- independant alignment shop

    So all three readings are different and nothing was done to the rear toe. How do I know which is accurate.

    I appologise for going on about this, but when you drive 80 miles a day every day, and paid 25000 for a car, I would expect to feel safe in it and not have to constantly worry about it "hunting" all over the place on the freeway.

    I have seriously considered selling it.....I do know this, it will be the last toyota I buy, and it is unfortunate, as I have owned many, but this is just bs.